2) If you lift two loads up one story, how much work do you do compared
to lifting just one load up one story?
A) Four times as much
B) Twice as much
C) The same amount
D) One half as much
E) One quarter as much ________

3) If you lift one load up two stories, how much work do you do compared
to lifting one load up only one story?
A) Four times as much
B) Twice as much
C) The same amount
D) One half as much
E) One quarter as much ________

4) If Nellie Newton pushes an object with twice the force for twice the
distance, she does __________.
A) the same work.
B) twice the work.
C) four times the work.
D) eight times the work. ________

6) Power is defined as the __________.
A) force on an object times the distance the object moves.
B) force on an object divided by the time the force acts.
C) work done on an object divided by the time taken to do the work.
D) work done times the time taken to do that work.
E) distance divided by the time taken to move that distance. ________

9) The amount of potential energy possessed by an elevated object is equal
to __________.
A) the force needed to lift it.
B) the distance it is lifted.
C) the power used to lift it.
D) the work done in lifting it.
E) the value of the acceleration due to gravity. ________

10) Kinetic energy of an object is equal to __________.
A) one half the product of its mass times its speed squared.
B) one half the product of its mass times its speed.
C) its mass multiplied by its speed.
D) its mass multiplied by its acceleration.
E) its mass multiplied by its acceleration squared. _______

11) How much farther will a car traveling at 100 km/s skid than the same
car traveling at 50 km/s?
A) Five times as far
B) Four times as far
C) Twice as far
D) The same distance
E) Half as far _______

12) An arrow in a bow has 70 J of potential energy. Assuming no loss of
energy due to heat, how much kinetic energy will it have after it has
been shot?
A) 140 J
B) 70 J
C) 50 J
D) 35 J
E) 0 J _______

13) Energy is changed from one form to another with no net loss or gain.
A) Always true
B) Sometimes true
C) Always false _______

14) As a pendulum swings back and forth __________.
A) potential energy is transformed into kinetic energy.
B) kinetic energy is transformed into potential energy.
C) at the lowest part of its swing, its energy is all kinetic.
D) at the end points of its swing, its energy is all potential.
E) all of the above _______

15) An object that has linear kinetic energy must be __________.
A) moving.
B) at an elevated position.
C) at rest.
D) none of the above _______

16) Cannonballs are launched from an airplane in the forward direction
of motion. The momentum of the airplane will be __________.
A) decreased.
B) unchanged.
C) increased. _______

17) A woman can lift barrels a vertical distance of 1 meter or can roll
them up a 2 meter-long ramp to the same elevation. If she uses the ramp,
the applied force required is __________.
A) one quarter as much.
B) half as much.
C) twice as much.
D) four times as much.
E) the same amount. _______

18) A job is done slowly, and an identical job is done quickly. Both jobs
require the same amount of work but different amounts of __________.
A) energy.
B) power.
C) both A and B
D) none of the above _______

20) A ball is thrown into the air with 100 J of kinetic energy, which
is transformed to gravitational potential energy at the top of its trajectory.
When it returns to its original level after encountering air resistance,
its kinetic energy is __________.
A) less than 100 J.
B) more than 100 J.
C) 100 J.
D) Not enough information given. _______

21) An object that has kinetic energy must be __________.
A) moving.
B) falling.
C) elevated.
D) at rest. _______

22) An object that has kinetic energy must have __________.
A) momentum.
B) acceleration.
C) a force applied to maintain it.
D) none of the above _______

23) Which has greater kinetic energy, a car traveling at 30 km/h or a
half-as-massive car traveling at 60 km/h?
A) The 30-km/h car
B) The 60-km/h car
C) Both have the same kinetic energy. _______

24) A person on a roof throws one ball downward and an identical ball
upward at the same speed. The ball thrown downward hits the ground with
100 J of kinetic energy. Ignoring air friction, with how much kinetic
energy does the second ball hit the ground?
A) 100 J
B) 200 J
C) Less than 100 J
D) More than 200 J
E) none of the above _______

26) A heavy object and a light object are released from rest at the same
height and time in a vacuum. As they fall, they have equal __________.
A) weights.
B) momenta.
C) energies.
D) all of the above
E) none of the above _______

27) If an object has kinetic energy, then it also must have __________.
A) impulse.
B) momentum.
C) acceleration.
D) force.
E) none of the above _______

28) If the velocity of a moving object doubles, then what else doubles?
A) momentum.
B) kinetic energy.
C) acceleration.
D) all of the above
E) none of the above _______

29) All simple machines ideally work on the principle that __________.
A) impulse equals momentum change.
B) force equals mass times acceleration.
C) kinetic energy transforms into potential energy.
D) total momentum before a collision equals total momentum after the collision.
E) work input equals work output. _______

34) A small economy car (low mass) and a limousine (high mass) are pushed
from rest across a parking lot, equal distances with equal forces. The
car that receives more change in kinetic energy is the __________.
A) small economy car.
B) limousine.
C) same for each. _______

35) A popular swinging apparatus consists of an aligned row of identical
elastic balls suspended by strings so they touch each other. When two
balls on one end are elevated and released, they slam into the array of
balls and two balls pop out the other side. If instead, one ball popped
out with twice the speed, this would be a violation of the conservation
of __________.
A) momentum.
B) energy.
C) both. _______

36) Consider molecules of hydrogen gas and molecules of heavier oxygen
gas that have the same kinetic energy. The molecules with more speed are
__________.
A) hydrogen.
B) oxygen.
C) Both have the same speed. _______

43) It takes 40 J to push a large box 4 m across a floor. Assuming the
push is in the same direction as the move, what is the magnitude of the
force on the box?
A) 4 N
B) 10 N
C) 40 N
D) 160 N
E) none of the above _______

44) If Kelly the skater's speed increases so he has twice the momentum,
then his kinetic energy increases by __________.
A) two times.
B) four times.
C) eight times.
D) none of the above (KE remains the same.) _______

46) A girl can easily lift an 80-N rock with the help of a lever. When
she pushes down with 10 N of force, she lifts the rock 0.1 meters. How
far does she move her arms to do this?
A) 10 m
B) 8 m
C) 1 m
D) 0.8 m
E) 0.1 m _______

47) A pulley has two supporting strands. In order to use it to lift a
load 1 meter, the person pulling will have to pull a distance of __________.
A) 4 m.
B) 2 m.
C) 1 m.
D) 1/2 m.
E) 1/4 m. _______

48) A frictionless inclined plane is 6 m long and rests on a wall that
is 2 m high. How much force is needed to push a block of ice weighing
300 N up the plane?
A) 600 N
B) 300 N
C) 200 N
D) 100 N
E) 50 N _______

49) A certain jack has a theoretical mechanical advantage of 500. However,
due to frictional forces, the actual mechanical advantage is only 100.
What is the efficiency of the jack?
A) 50 000
B) 500
C) 50
D) 5
E) 1/5 _______

50) A machine puts out 100 watts of power for every 1000 watts put into
it. The efficiency of the machine is __________.
A) 10%.
B) 50%.
C) 90%.
D) 110%.
E) none of the above _______

Write True or False in the space provided.

51) In physics, the amount of work done on an object is the product of
the force exerted on the object times the time the object moves. _______

52) The unit of work is called the joule. _______

53) The rate at which work is done is called energy. _______

54) The unit of power is the watt. _______

55) The rate at which work is done is called power. _______

56) The energy an object has by virtue of its location is its potential
energy. _______

57) The energy an object has by virtue of its motion is its kinetic energy.
_______

58) The ratio of output force to input force for a simple machine is its
efficiency. _______

59) The ratio of useful work output to total work input is mechanical
advantage. _______

60) When we carry an object across a room, without lifting it or setting
it down, we do no physical work on it. _______

61) More power is needed to carry a heavy suitcase slowly up a flight
of stairs than to carry the suitcase quickly up the same flight of stairs.
_______

62) Energy transforms from one form to another with no net loss or gain.
_______

63) A pulley system can only change direction; it can't multiply forces
as well. _______

64) Using an inclined plane is an effective way to lift a heavy object
that you otherwise couldn't lift. _______

On a separate sheet of paper, answer the following questions.

65) You do work on something when you lift it against gravity. How does
this work relate to gravitational potential energy? If the lifted object
is released, what becomes of this energy? Be sure to define all terms
that you use.

66) Discuss how energy conservation applies to a pendulum. Where is potential
energy the most? The least? Where is kinetic energy the most? The least?
Where is the pendulum accelerating the most? The least? Where is it moving
the fastest? Stopped?

67) Define a simple machine and give examples of four different ones.
For each machine discuss the theoretical mechanical advantage, actual
mechanical advantage, and efficiency and give numerical examples of each.

Answer the following questions in the space provided. Show all work.

68) What is the work done in lifting 50-kg of bricks to a height of 20
m?

_____________

69) What is the work done in raising a 50-kg block 3.0 m vertically ?

_____________

70) What amount of work is done on a cart that is pushed 4.0 m across
a floor by a horizontal 50-N net force?

_____________

71) If possible, determine the power expended when a barbell is raised
5.0 m in 2 s.

_____________

72) A toy cart moves with a kinetic energy of 30 J. If its speed is doubled,
what will its kinetic energy be?

_____________

73) In raising a 3,000-N piano with a pulley system, it is noted that
for every 1 m of rope pulled down, the piano rises 0.1 m. Ideally, what
force is needed to lift the piano?

_____________

74) A car traveling at 50 km/h will skid 20 m when its brakes are locked.
If the same car is traveling at 150 km/h, what will be its skidding distance?

_____________

75) What amount of work can a 600-W electric drill do in 4 minutes?

_____________

76) A couch potato might consume 6 million J of energy in a day. What
is this rate of energy consumption in watts?

_____________

77) A 40-kg boy runs up the staircase to a floor 5.0 m higher in 7.0 seconds.
What is his power output?

_____________

78) At what height does a 1,000.0-kg mass have a potential energy of 1.0
J relative to the ground?

_____________

79) The 2.0-kg head of an ax is moving at 5.0 m/s when it strikes a log
and penetrates 0.02 m into the log. What is the average force the blade
exerts on the log?

_____________

80) An anvil hanging vertically from a long rope in a barn is pulled to
the side and raised like a pendulum 0.80 m above its equilibrium position.
It then swings to its lowermost point where the rope is cut by a sharp
blade. The anvil then has a horizontal velocity with which it sails across
the barn and hits the floor, 5.0 m below. How far horizontally along the
floor will the anvil land?